Method and apparatus for resistance welding
First Claim
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1. A method of resistance spot welding comprising the steps of:
- moving weld electrodes into contact with a workpiece and applying electrode force to the workpiece,determining a preheat pulse time in the period following contact of weld electrodes with the workpiece and prior to attaining full electrode force,applying a preheat current pulse at the preheat pulse time and extending for a time sufficient to vaporize coatings and melt the workpiece surfaces at the interfaces,inhibiting further weld current for a cooling period after the preheat pulse to allow heat dissipation from the hot interfaces, and thenapplying a predetermined weld current schedule.
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Abstract
A method and apparatus are disclosed for resistance spot welding including applying a preconditioning pulse at the beginning of a welding process to stabilize the resistances at the interface of the sheets being welded and at the interface of the electrodes and the sheets. A current pulse is applied just after contact of electrodes and the workpiece when the electrode force is between about 10% and 75% of its final value to melt interface surfaces followed by a cooling time to permit dissipation of heat from the interfaces, and is finally followed by a conventional weld current schedule. The contact time is determined be electrically monitoring the conductivity between the electrodes as they are moved toward the workpiece. Alternatively, the applied electrode pressure is monitored to determine when sufficient electrode force is applied to the workpiece to achieve the proper resistance for the pulse application.
20 Citations
14 Claims
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1. A method of resistance spot welding comprising the steps of:
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moving weld electrodes into contact with a workpiece and applying electrode force to the workpiece, determining a preheat pulse time in the period following contact of weld electrodes with the workpiece and prior to attaining full electrode force, applying a preheat current pulse at the preheat pulse time and extending for a time sufficient to vaporize coatings and melt the workpiece surfaces at the interfaces, inhibiting further weld current for a cooling period after the preheat pulse to allow heat dissipation from the hot interfaces, and then applying a predetermined weld current schedule. - View Dependent Claims (2, 3)
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4. A method of resistance spot welding comprising the steps of:
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moving weld electrodes into contact with a workpiece and applying electrode force to the workpiece, applying a preheat current pulse between the attainment of about 10% and 75% of full electrode force and extending for a time sufficient to melt the workpiece surfaces at the interfaces thereof, inhibiting further weld current for a cooling period after the preheat pulse to allow heat dissipation from the hot interfaces, and then applying a predetermined weld current schedule.
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5. A method of resistance spot welding comprising the steps of:
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moving weld electrodes into contact with a workpiece and applying electrode force to the workpiece, detecting the time of contact of electrodes and the workpiece, setting a preheat pulse time a preset interval after the contact time and prior to attaining full electrode force, applying a preheat current pulse at the preheat pulse time and extending for a time sufficient to melt the workpiece surfaces at the interfaces, inhibiting further weld current for a cooling period after the preheat pulse to allow heat dissipation from the hot interfaces, and then applying a predetermined weld current schedule. - View Dependent Claims (6, 7, 8)
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9. A method of resistance spot welding comprising the steps of:
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moving weld electrodes into contact with a workpiece and applying electrode force to the workpiece, sensing a parameter which is a function of electrode force, determining from the parameter a preheat pulse time in the period following contact of weld electrodes with the workpiece and prior to attaining full electrode force, applying a preheat current pulse at the preheat pulse time and extending for a time sufficient to melt the workpiece surfaces at the interfaces, inhibiting further weld current for a cooling period after the preheat pulse to allow heat dissipation from the hot interfaces, and then applying a predetermined weld current schedule.
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10. Resistance spot welding apparatus comprising;
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electrode means for contacting and applying force to a workpiece, means for detecting initial engagement of electrodes with the workpiece and generating a trigger signal, and current control means responsive to the trigger signal for (a) applying a preheat current pulse to the workpiece for melting interface surfaces prior to attaining full electrode force, (b) inhibiting weld current flow for a cooling period, so that the preheat in conjunction with the cooling conditions the interfaces for stable weld operation, and (c) applying weld current to the workpiece according to a weld schedule. - View Dependent Claims (11)
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12. Resistance spot welding apparatus comprising;
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electrode means for contacting and applying force to a workpiece including variable force motor means for providing electrode force, a transducer coupled to the electrode means for generating a signal indicative of electrode force, means responsive to the signal for detecting initial engagement of electrodes with the workpiece and generating a trigger signal at a preset force level, and current control means responsive to the trigger signal for (a) applying a preheat current pulse to the workpiece when the electrode force is initially increasing for melting interface surfaces, (b) inhibiting weld current flow for a cooling period, so that the preheat in conjunction with the cooling conditions the interfaces for stable weld operation, and (c) applying weld current to the workpiece according to a weld schedule.
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13. Resistance spot welding apparatus comprising;
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electrode means for contacting and applying force to a workpiece including variable air pressure means for providing electrode force, an air pressure transducer for generating a pressure signal indicative of electrode force, means responsive to the pressure signal for detecting initial engagement of electrodes with the workpiece and generating a trigger signal at a preset air pressure level, and current control means responsive to the trigger signal for (a) applying a preheat current pulse to the workpiece to melt interface surfaces, (b) inhibiting current flow for a cooling period, so that the preheat in conjunction with the cooling conditions the interfaces for stable weld operation, and (c) applying weld current to the workpiece according to a weld schedule.
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14. Resistance spot welding apparatus comprising;
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electrode means for contacting and applying force to a workpiece, means responsive to electrode force for detecting contact of electrodes with the workpiece and generating a contact signal, and current control means responsive to the contact signal for (a) applying a preheat current pulse to the workpiece just after the contact between electrodes and workpiece when electrode force is initially increasing, (b) inhibiting current flow for a cooling period, so that the preheat in conjunction with the cooling conditions the interfaces for stable weld operation, and (c) applying weld current to the workpiece according to a weld schedule.
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Specification
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Current AssigneeGeneral Motors Corporation (Motors Liquidation Co. GUC Trust)
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Original AssigneeGeneral Motors Corporation (Motors Liquidation Co. GUC Trust)
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InventorsLee, Anthony, Nagel, Gregory L., Hill, Warren D.
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Primary Examiner(s)Shaw, Clifford C.
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Application NumberUS06/883,781Time in Patent Office363 DaysField of Search219/108, 219/109, 219/110, 219/117.1US Class Current219/117.1CPC Class CodesB23K 11/115 by means of two electrodes ...B23K 11/252 using digital means
